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基于阿尔茨海默病研究的新冠肺炎肺炎新型影像学模式。

New Imaging Modality of COVID-19 Pneumonia Developed on the Basis of Alzheimer's Disease Research.

机构信息

Centre of Radiochemistry and Nuclear Chemistry, Institute of Nuclear Chemistry and Technology, 03-195 Warsaw, Poland.

Institute of Biochemistry and Biophysics, Polish Academy of Sciences, 02-106 Warsaw, Poland.

出版信息

Int J Mol Sci. 2022 Jul 29;23(15):8405. doi: 10.3390/ijms23158405.

DOI:10.3390/ijms23158405
PMID:35955536
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9369300/
Abstract

Viral pneumonia caused by highly infectious SARS-CoV-2 poses a higher risk to older people and those who have underlying health conditions, including Alzheimer's disease. In this work we present newly designed tacrine-based radioconjugates with physicochemical and biological properties that are crucial for the potential application as diagnostic radiopharmaceuticals. A set of ten tacrine derivatives was synthesized, labelled with gallium-68 and fully characterized in the context of their physicochemical properties. Based on these results, the final two most promising radioconjugates, [Ga]Ga-NODAGA-Bn-NH(CH)Tac and [Ga]Ga-THP-NH(CH)Tac, were selected for biodistribution studies. The latter compound was proven to be a good inhibitor of cholinesterases with significant affinity toward the lungs, according to the biodistribution studies. On the basis of molecular modelling combined with in vitro studies, we unraveled which structural properties of the developed tacrine derivatives are crucial for high affinity toward acetylcholinesterase, whose increased levels in lung tissues in the course of coronavirus disease indicate the onset of pneumonia. The radiopharmaceutical [Ga]Ga-THP-NH(CH)Tac was ultimately selected due to its increased accuracy and improved sensitivity in PET imaging of lung tissue with high levels of acetylcholinesterase, and it may become a novel potential diagnostic modality for the determination of lung perfusion, including in inflammation after COVID-19.

摘要

由高度传染性的 SARS-CoV-2 引起的病毒性肺炎对老年人和患有潜在健康状况(包括阿尔茨海默病)的人构成更高的风险。在这项工作中,我们提出了新设计的基于他克林的放射性缀合物,具有对于作为诊断放射性药物的潜在应用至关重要的物理化学和生物学特性。合成了一组十种他克林衍生物,并在其物理化学特性方面进行了充分的标记和表征。基于这些结果,选择了最后两种最有前途的放射性缀合物 [Ga]Ga-NODAGA-Bn-NH(CH)Tac 和 [Ga]Ga-THP-NH(CH)Tac 进行生物分布研究。根据生物分布研究,后一种化合物被证明是一种良好的胆碱酯酶抑制剂,对肺部具有显著的亲和力。根据分子建模结合体外研究,我们揭示了开发的他克林衍生物的哪些结构特性对于与乙酰胆碱酯酶的高亲和力至关重要,在冠状病毒疾病过程中肺组织中乙酰胆碱酯酶水平的升高表明肺炎的发生。放射性药物 [Ga]Ga-THP-NH(CH)Tac 最终被选中是因为它在具有高乙酰胆碱酯酶水平的肺部组织的 PET 成像中具有更高的准确性和改善的灵敏度,并且它可能成为一种新的潜在诊断方式,用于确定肺灌注,包括 COVID-19 后的炎症。

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